Process for making high-performance polyethylene multifilament yarn

What is claimed is: 1. A ballistic-resistant sheet comprising: a first layer and a second layer each comprising high-performance polyethylene multifilament yarn; wherein the multifilament yarn comprises ultra-high molecular weight polyethylene having an intrinsic viscosity of from about 8 dl/g to about 40 dl/g as measured in decalin at 135° C. and at least 5 filaments, and has a tensile strength of between 5.8·(n −0.065 ) GPa and 8·n −0.065 ) GPa, wherein n is the number of filaments in the yarn; and wherein the filaments of the multifilament yarn in the first layer and the second layer are spread unidirectionally within each of the layers; and wherein a direction of the filaments in the first layer is rotated with respect to a direction of the filaments in the second layer. 2. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 6.0·(n −0.065 ) GPa and 8·(n −0.065 ) GPa. 3. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 6.2·(n −0.065 ) GPa and 8·(n −0.065 ) GPa. 4. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 6.4*(n −0.065 ) GPa and 8·(n −0.065 ) GPa. 5. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 5.8·(n −0.065 ) GPa and 7·(n −0.065 ) GPa. 6. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 6.0·(n 0.065 ) GPa and 7·(n −0.065 ) GPa. 7. The ballistic-resistant sheet of claim 1 , wherein the yarn has a tensile strength of between 6.2·(n 0.065 ) GPa and 7·(n −0.065 ) GPa. 8. The ballistic-resistant sheet of claim 1 , wherein the yarn comprises at least 50 filaments. 9. The ballistic-resistant sheet of claim 1 , wherein the yarn comprises at least 100 filaments. 10. The ballistic-resistant sheet of claim 1 , wherein the yarn comprises at least 200 filaments. 11. The ballistic-resistant sheet of claim 1 , wherein the yarn comprises ultra-high molecular weight polyethylene having an intrinsic viscosity of from 10 dL/g to 30 dL/g as measured in decalin at 135° C. 12. The ballistic-resistant sheet of claim 1 , wherein the yarn comprises ultra-high molecular weight polyethylene having an intrinsic viscosity of from 15 dL/g to 25 dL/g as measured in decalin at 135° C. 13. The ballistic-resistant sheet of claim 1 , wherein the first and second layers of high-performance polyethylene multifilament yarn further comprise a binder, wherein the amount of binder is less than 30 mass % based on the mass of the layers. 14. The ballistic-resistant sheet of claim 13 , wherein the amount of binder is preferably less than 20 mass % based on the mass of the layers. 15. The ballistic-resistant sheet of claim 1 , further comprising a third layer and a fourth layer each comprising the high-performance polyethylene multifilament yarn, wherein the filaments of the multifilament yarn in the third layer and the fourth layer are spread uni-directionally within each of the third and the fourth layers, and wherein the direction of the filaments in each layer is rotated with respect to the direction of the filaments in an adjacent layer. 16. The ballistic-resistant sheet of claim 15 , wherein the first, second, third, and fourth layers further comprise a binder, wherein the amount of binder is less than 30 mass % based on the mass of the layers. 17. The ballistic-resistant sheet of claim 16 , wherein the amount of binder is less than 20 mass % based on the mass of the layers. 18. The ballistic-resistant sheet of claim 1 , wherein the sheet comprises polyethylene films on both sides of the sheet. 19. The ballistic-resistant sheet of claim 1 , wherein the sheet does not comprise polyethylene films. 20. A ballistic-resistant assembly comprising the sheet of claim 1 . 21. The ballistic-resistant assembly of claim 20 having an areal density of between 1.5 kg/m 2 and 3.4 kg/m 2 . 22. A ballistic-resistant assembly comprising the sheet of claim 6 . 23. The ballistic-resistant assembly of claim 22 having an areal density of between 1.5 kg/m 2 and 3.4 kg/m 2 . 24. The ballistic-resistant assembly of claim 22 having a specific energy absorption of at least 300 J·m 2 /kg as measured against a 9·19 mm FMJ Parabellum bullet according to a test procedure based on Stanag 2920. 25. A ballistic-resistant compression-molded assembly comprising the sheet of claim 1 . 26. The ballistic-resistant compression-molded assembly of claim 25 having an areal density of between 1.5 kg/m 2 and 16 kg/m 2 . 27. The ballistic-resistant compression-molded assembly of claim 25 having an areal density of between 4.0 kg/m 2 and 16 kg/m 2 . 28. The ballistic-resistant compression-molded assembly of claim 25 having a specific energy absorption of at least 300 J·m 2 /kg as measured against a 9·19 mm FMJ Parabellum bullet according to a test procedure based on Stanag 2920. 29. The ballistic-resistant compression-molded assembly of claim 25 having a specific energy absorption of at least 165 J·m 2 /kg as measured against AK-47 mild steel core bullets according to a test procedure based on Stanag 2920. 30. The ballistic-resistant assembly of claim 25 having a specific energy absorption of at least 170 J·m 2 /kg as measured against AK-47 mild steel core bullets according to a test procedure based on Stanag 2920.